#!/usr/bin/env python3 # Copyright (c) 2015-2024 The Dash Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. ''' feature_llmq_evo.py Checks EvoNodes ''' from _decimal import Decimal from io import BytesIO from test_framework.p2p import P2PInterface from test_framework.messages import CBlock, CBlockHeader, CCbTx, CMerkleBlock, from_hex, hash256, msg_getmnlistd, \ QuorumId, ser_uint256 from test_framework.test_framework import DashTestFramework from test_framework.util import ( assert_equal, p2p_port ) def extract_quorum_members(quorum_info): return [d['proTxHash'] for d in quorum_info["members"]] class TestP2PConn(P2PInterface): def __init__(self): super().__init__() self.last_mnlistdiff = None def on_mnlistdiff(self, message): self.last_mnlistdiff = message def wait_for_mnlistdiff(self, timeout=30): def received_mnlistdiff(): return self.last_mnlistdiff is not None return self.wait_until(received_mnlistdiff, timeout=timeout) def getmnlistdiff(self, baseBlockHash, blockHash): msg = msg_getmnlistd(baseBlockHash, blockHash) self.last_mnlistdiff = None self.send_message(msg) self.wait_for_mnlistdiff() return self.last_mnlistdiff class LLMQEvoNodesTest(DashTestFramework): def set_test_params(self): self.set_dash_test_params(5, 4, fast_dip3_enforcement=True, evo_count=7) self.set_dash_llmq_test_params(4, 4) def run_test(self): # Connect all nodes to node1 so that we always have the whole network connected # Otherwise only masternode connections will be established between nodes, which won't propagate TXs/blocks # Usually node0 is the one that does this, but in this test we isolate it multiple times self.test_node = self.nodes[0].add_p2p_connection(TestP2PConn()) null_hash = format(0, "064x") for i in range(len(self.nodes)): if i != 0: self.connect_nodes(i, 0) self.nodes[0].sporkupdate("SPORK_17_QUORUM_DKG_ENABLED", 0) self.nodes[0].sporkupdate("SPORK_2_INSTANTSEND_ENABLED", 1) self.wait_for_sporks_same() expectedUpdated = [mn.proTxHash for mn in self.mninfo] b_0 = self.nodes[0].getbestblockhash() self.test_getmnlistdiff(null_hash, b_0, {}, [], expectedUpdated) self.log.info("Test that EvoNodes registration is rejected before v19") self.test_evo_is_rejected_before_v19() self.test_masternode_count(expected_mns_count=4, expected_evo_count=0) self.activate_v19(expected_activation_height=900) self.log.info("Activated v19 at height:" + str(self.nodes[0].getblockcount())) self.nodes[0].sporkupdate("SPORK_2_INSTANTSEND_ENABLED", 0) self.wait_for_sporks_same() self.move_to_next_cycle() self.log.info("Cycle H height:" + str(self.nodes[0].getblockcount())) self.move_to_next_cycle() self.log.info("Cycle H+C height:" + str(self.nodes[0].getblockcount())) self.move_to_next_cycle() self.log.info("Cycle H+2C height:" + str(self.nodes[0].getblockcount())) self.mine_cycle_quorum(llmq_type_name='llmq_test_dip0024', llmq_type=103) evo_protxhash_list = list() for i in range(5): evo_info = self.dynamically_add_masternode(evo=True) evo_protxhash_list.append(evo_info.proTxHash) self.nodes[0].generate(8) self.sync_blocks(self.nodes) expectedUpdated.append(evo_info.proTxHash) b_i = self.nodes[0].getbestblockhash() self.test_getmnlistdiff(null_hash, b_i, {}, [], expectedUpdated) self.test_masternode_count(expected_mns_count=4, expected_evo_count=i+1) self.dynamically_evo_update_service(evo_info) self.log.info("Test llmq_platform are formed only with EvoNodes") for _ in range(3): quorum_i_hash = self.mine_quorum(llmq_type_name='llmq_test_platform', llmq_type=106, expected_connections=2, expected_members=3, expected_contributions=3, expected_complaints=0, expected_justifications=0, expected_commitments=3 ) self.test_quorum_members_are_evo_nodes(quorum_i_hash, llmq_type=106) self.log.info("Test that EvoNodes are present in MN list") self.test_evo_protx_are_in_mnlist(evo_protxhash_list) self.log.info("Test that EvoNodes are paid 4x blocks in a row") self.test_evo_payments(window_analysis=48) self.activate_v20() self.activate_mn_rr() self.log.info("Activated MN RewardReallocation at height:" + str(self.nodes[0].getblockcount())) # Generate a few blocks to make EvoNode/MN analysis on a pure MN RewardReallocation window self.bump_mocktime(1) self.nodes[0].generate(4) self.sync_blocks() self.log.info("Test that EvoNodes are paid 1 block in a row after MN RewardReallocation activation") self.test_evo_payments(window_analysis=48, v20active=True) self.log.info(self.nodes[0].masternodelist()) return def test_evo_payments(self, window_analysis, v20active=False): current_evo = None consecutive_payments = 0 n_payments = 0 if v20active else 4 for i in range(0, window_analysis): payee = self.get_mn_payee_for_block(self.nodes[0].getbestblockhash()) if payee is not None and payee.evo: if current_evo is not None and payee.proTxHash == current_evo.proTxHash: # same EvoNode assert consecutive_payments > 0 if not v20active: consecutive_payments += 1 consecutive_payments_rpc = self.nodes[0].protx('info', current_evo.proTxHash)['state']['consecutivePayments'] assert_equal(consecutive_payments, consecutive_payments_rpc) else: # new EvoNode if current_evo is not None: # make sure the old one was paid N times in a row assert_equal(consecutive_payments, n_payments) consecutive_payments_rpc = self.nodes[0].protx('info', current_evo.proTxHash)['state']['consecutivePayments'] # old EvoNode should have its nConsecutivePayments reset to 0 assert_equal(consecutive_payments_rpc, 0) consecutive_payments_rpc = self.nodes[0].protx('info', payee.proTxHash)['state']['consecutivePayments'] # if EvoNode is the one we start "for" loop with, # we have no idea how many times it was paid before - rely on rpc results here new_payment_value = 0 if v20active else 1 consecutive_payments = consecutive_payments_rpc if i == 0 and current_evo is None else new_payment_value current_evo = payee assert_equal(consecutive_payments, consecutive_payments_rpc) else: # not an EvoNode if current_evo is not None: # make sure the old one was paid N times in a row assert_equal(consecutive_payments, n_payments) consecutive_payments_rpc = self.nodes[0].protx('info', current_evo.proTxHash)['state']['consecutivePayments'] # old EvoNode should have its nConsecutivePayments reset to 0 assert_equal(consecutive_payments_rpc, 0) current_evo = None consecutive_payments = 0 self.nodes[0].generate(1) if i % 8 == 0: self.sync_blocks() def get_mn_payee_for_block(self, block_hash): mn_payee_info = self.nodes[0].masternode("payments", block_hash)[0] mn_payee_protx = mn_payee_info['masternodes'][0]['proTxHash'] mninfos_online = self.mninfo.copy() for mn_info in mninfos_online: if mn_info.proTxHash == mn_payee_protx: return mn_info return None def test_quorum_members_are_evo_nodes(self, quorum_hash, llmq_type): quorum_info = self.nodes[0].quorum("info", llmq_type, quorum_hash) quorum_members = extract_quorum_members(quorum_info) mninfos_online = self.mninfo.copy() for qm in quorum_members: found = False for mn in mninfos_online: if mn.proTxHash == qm: assert_equal(mn.evo, True) found = True break assert_equal(found, True) def test_evo_protx_are_in_mnlist(self, evo_protx_list): mn_list = self.nodes[0].masternodelist() for evo_protx in evo_protx_list: found = False for mn in mn_list: if mn_list.get(mn)['proTxHash'] == evo_protx: found = True assert_equal(mn_list.get(mn)['type'], "Evo") assert_equal(found, True) def test_evo_is_rejected_before_v19(self): bls = self.nodes[0].bls('generate') collateral_address = self.nodes[0].getnewaddress() funds_address = self.nodes[0].getnewaddress() owner_address = self.nodes[0].getnewaddress() voting_address = self.nodes[0].getnewaddress() reward_address = self.nodes[0].getnewaddress() collateral_amount = 4000 outputs = {collateral_address: collateral_amount, funds_address: 1} collateral_txid = self.nodes[0].sendmany("", outputs) self.nodes[0].generate(8) self.sync_all(self.nodes) rawtx = self.nodes[0].getrawtransaction(collateral_txid, 1) collateral_vout = 0 for txout in rawtx['vout']: if txout['value'] == Decimal(collateral_amount): collateral_vout = txout['n'] break assert collateral_vout is not None ipAndPort = '127.0.0.1:%d' % p2p_port(len(self.nodes)) operatorReward = len(self.nodes) try: self.nodes[0].protx('register_evo', collateral_txid, collateral_vout, ipAndPort, owner_address, bls['public'], voting_address, operatorReward, reward_address, funds_address, True) # this should never succeed assert False except: self.log.info("protx_evo rejected") def test_masternode_count(self, expected_mns_count, expected_evo_count): mn_count = self.nodes[0].masternode('count') assert_equal(mn_count['total'], expected_mns_count + expected_evo_count) detailed_count = mn_count['detailed'] assert_equal(detailed_count['regular']['total'], expected_mns_count) assert_equal(detailed_count['evo']['total'], expected_evo_count) def test_getmnlistdiff(self, baseBlockHash, blockHash, baseMNList, expectedDeleted, expectedUpdated): d = self.test_getmnlistdiff_base(baseBlockHash, blockHash) # Assert that the deletedMNs and mnList fields are what we expected assert_equal(set(d.deletedMNs), set([int(e, 16) for e in expectedDeleted])) assert_equal(set([e.proRegTxHash for e in d.mnList]), set(int(e, 16) for e in expectedUpdated)) # Build a new list based on the old list and the info from the diff newMNList = baseMNList.copy() for e in d.deletedMNs: newMNList.pop(format(e, '064x')) for e in d.mnList: newMNList[format(e.proRegTxHash, '064x')] = e cbtx = CCbTx() cbtx.deserialize(BytesIO(d.cbTx.vExtraPayload)) # Verify that the merkle root matches what we locally calculate hashes = [] for mn in sorted(newMNList.values(), key=lambda mn: ser_uint256(mn.proRegTxHash)): hashes.append(hash256(mn.serialize(with_version = False))) merkleRoot = CBlock.get_merkle_root(hashes) assert_equal(merkleRoot, cbtx.merkleRootMNList) return newMNList def test_getmnlistdiff_base(self, baseBlockHash, blockHash): hexstr = self.nodes[0].getblockheader(blockHash, False) header = from_hex(CBlockHeader(), hexstr) d = self.test_node.getmnlistdiff(int(baseBlockHash, 16), int(blockHash, 16)) assert_equal(d.baseBlockHash, int(baseBlockHash, 16)) assert_equal(d.blockHash, int(blockHash, 16)) # Check that the merkle proof is valid proof = CMerkleBlock(header, d.merkleProof) proof = proof.serialize().hex() assert_equal(self.nodes[0].verifytxoutproof(proof), [d.cbTx.hash]) # Check if P2P messages match with RPCs d2 = self.nodes[0].protx("diff", baseBlockHash, blockHash) assert_equal(d2["baseBlockHash"], baseBlockHash) assert_equal(d2["blockHash"], blockHash) assert_equal(d2["cbTxMerkleTree"], d.merkleProof.serialize().hex()) assert_equal(d2["cbTx"], d.cbTx.serialize().hex()) assert_equal(set([int(e, 16) for e in d2["deletedMNs"]]), set(d.deletedMNs)) assert_equal(set([int(e["proRegTxHash"], 16) for e in d2["mnList"]]), set([e.proRegTxHash for e in d.mnList])) assert_equal(set([QuorumId(e["llmqType"], int(e["quorumHash"], 16)) for e in d2["deletedQuorums"]]), set(d.deletedQuorums)) assert_equal(set([QuorumId(e["llmqType"], int(e["quorumHash"], 16)) for e in d2["newQuorums"]]), set([QuorumId(e.llmqType, e.quorumHash) for e in d.newQuorums])) return d if __name__ == '__main__': LLMQEvoNodesTest().main()